乙炔基连接对三苯基咪唑-吩噻嗪染料在双组分铜电解质中室内光伏性能的影响

Abstract In this work, we have intended and synthesized two innovative dyes, LG-P7 and LG-P8 , that significantly improve the efficiency of dye-sensitized solar cells (DSCs) under outdoor and indoor/ambient illuminations. These dyes ( LG-P7 and LG-P8 ) are modified versions of our previously reported LG-P5 and LG-P6 dyes, with the addition of an ethynyl bridge to extend π-conjugation of the dye molecules, contributing to enhanced light harvesting behaviour. Using the asymmetric dual species copper (II/I) redox electrolyte ([Cu(II)(dmp) 2 Cl] + /[Cu(I)(dmp) 2 ] + ) and co-sensitization with the metal-free organic XY1b dye, both LG-P7/P8 devices delivered a PCE of ∼ 35 % under 1000 lx WW CFL illumination, comparable to typically used D35 co-sensitized devices. The impact of introduction of ethynyl linkage was more pronounced for the D-D-π-A dyes where moving from LG-P5:XY1b to LG-P7: XY1b, the PCE improved from 21.44 % to 35.14 % under 1000 lx CFL illumination. At a lower illumination intensity of 700 lx, the XY1b co-sensitized LG-P7/P8 devices even demonstrated superior performance compared to D35:XY1b (32.84 ± 0.37 %), with PCE of 33.95 ± 0.37 % ( LG-P7: XY1b) and 33.03 ± 0.16 % ( LG-P8: XY1b). The introduction of extended π-conjugation in the LG-P7 and LG-P8 dyes, compared to the parent triphenylimidazole-phenothiazine dyes (LG-P5 and LG-P6), contributed to enhanced light harvesting behaviour as well as improved photovoltaic performance further demonstrating the significance of systematic structural modifications in sensitizers to realize superior indoor photovoltaic performance in DSCs .